In this study, we first investigate the optical response on phase-change material Ge2Sb2Te5 with an optical pump-probe system (Static tester, Optica co.). From the CCD images and reflectance of recorded mark matrix, the process of recording mark formation and the reflectance change can be analyzed and categorized. An Auger electron spectrum (VG Scientific,Microlab 350.) is also applied to analyze the component and oxidization of different types of recording marks. For further understanding of the phase-change state of recording marks, we use a conductive atomic force microscope (C-AFM) with a heating stage (Asylum Research co.) to investigate the topographic change and the surface current distribution of recording marks on phase-change material at different temperature. From the experimental results, the process and the phase transition of recording marks on phase-change material Ge2Sb2Te5 can be obtained to have the further usage in ultra-high density recording.